Dynamical Decoupling of a single electron spin at room temperature

Abstract

Here we report the increase of the coherence time T2 of a single electron spin at room temperature by using dynamical decoupling. We show that the Carr-Purcell-Meiboom-Gill (CPMG) pulse sequence can prolong the T2 of a single Nitrogen-Vacancy center in diamond up to 2.44 ms compared to the Hahn echo measurement where T2 = 390 μs. Moreover, by performing spin locking experiments we demonstrate that with CPMG the maximum possible T2 is reached. On the other hand, we do not observe strong increase of the coherence time in nanodiamonds, possibly due to the short spin lattice relaxation time T1=100 μs (compared to T1 = 5.93 ms in bulk). An application for detecting low magnetic field is demonstrated, where we show that the sensitivity using the CPMG method is improved by about a factor of two compared to the Hahn echo method.